Image recording/reproduction apparatus, index displaying method by image recording/reproduction apparatus, and computer program

ABSTRACT

An image recording/reproduction apparatus reads image data from a recording medium storing plural image data to display the read image data on a TV monitor or the like, and selects image data of a same aspect ratio to simultaneously index display plural small images of thus selected image data on the TV monitor. Reduced images of an aspect ratio of 4:3 and 16:9 are formed respectively from image data of an aspect ratio of 4:3 and 16:9, and the number of displayed small image is changed according to the aspect ratio, thereby displaying a larger amount of information within a limited display space in an easily recognizable manner.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of application Ser. No. 11/355,876,filed Feb. 16, 2006, the entire disclosure of which is herebyincorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an image recording/reproductionapparatus such as a digital camera or a digital video camera, an indexdisplaying method by an image recording/reproduction apparatus, and acomputer program therefor.

2. Related Background Art

In a digital camera for example, as a method of displaying image datarecorded in a removable memory such as a memory card, there is known, inaddition to an ordinary display method of displaying an image only, anindex display method of simultaneously displaying a plurality of smallimages (thumbnail images) of the recorded image data.

Such index display is a function of simultaneously displaying smallimages of the image data recorded in the removable memory by (m×n)images (for example 6 images) or by (m×m) images (for example 9 images)for example. In such index display, it is important to display as muchinformation as possible in an easily observable manner within a limiteddisplay space such as a liquid crystal panel incorporated in the digitalcamera or an external monitor (for example television).

Also there is known an image reproduction apparatus which, in responseto a selection of a size of the small image to be displayed in an indexdisplay, determines a number of displayed images according to a screen(size and aspect ratio) of a monitor to be used for image display (cf.Japanese Patent Application Laid-Open No. H11-212755).

Owing to the high-vision television broadcasting started in earnestrecently, television sets of a wider screen with a 16:9 aspect ratio arebecoming popular in addition to those of conventional 4:3 aspect ratio.Also the digital cameras and the digital video cameras, capable ofrecording image data with an aspect ratio of 16:9 in addition to thoseof a 4:3 aspect ratio are becoming available. Therefore, a removablememory is often found to contain image data of plural aspect ratios in amixed state.

Image data recorded by current digital cameras are principally JPEGimage data of a format conforming with Exif (exchangeable image fileformat) standard. The Exif standard defines a file format constituted ofa header, a thumbnail image part and a main image part, in which thethumbnail image part defines to record therein an image data of an imagesize of 160×120 pixels (aspect ratio 4:3). An index display on thedigital camera is usually executed using such thumbnail image.

However, as to a file recorded with a 16:9 aspect ratio (1920×1080pixels) of a main image, an index display is given by a thumbnail imageof a 4:3 aspect ratio, displayed in a letter-box manner by attachingsolid black areas above and below the image of the 16:9 aspect ratio.

Therefore, in an index display on a conventional image reproductionapparatus, an image of a 16:9 aspect ratio is displayed with a 4:3aspect ratio in a letter-box style, as shown in FIG. 7, mixedly withordinary images of a 4:3 aspect ratio. Consequently, the image portionof the image of the letter-box style, necessary for the user, is verydifficult to recognize, since the image portion is displayed in areduced form and the image is displayed in a letter-box style in a partthereof.

SUMMARY OF THE INVENTION

An object of the present invention is to provide an imagerecording/reproduction apparatus capable of displaying a larger amountof information within a limited display space and in an easilyrecognizable manner.

The above-mentioned object can be attained, according to the presentinvention, by an image recording/reproduction apparatus comprising arecording medium, on which plural image data are recorded, a displayunit adapted to read the image data from the recording medium anddisplay the read image data, and a selection unit adapted to selectimage data of a same aspect ratio from the image data, wherein pluralsmall images of the image data selected by the selection unit aresimultaneously index displayed on the display unit.

The present invention also provides an index display method for an imagerecording/reproduction apparatus capable of reading image data from arecording medium on which plural image data are recorded, and displayingthe read image data on a display unit, in which the imagerecording/reproduction apparatus executes a step of selecting image dataof a same aspect ratio from the image data, and a step of simultaneouslyindex displaying plural small images of the image data selected in theselection step on the display unit.

The present invention also provides a computer program for controllingan image recording/reproduction apparatus capable of reading image datafrom a recording medium on which plural image data are recorded, anddisplaying the read image data on a display unit, the computer programcausing a computer to execute a process of selecting image data of asame aspect ratio from the image data, and a process of simultaneouslyindex displaying plural small images of the image data selected in theselection process on the display unit.

In the image recording/reproduction apparatus of the above-describedconstitution, in case of an index display of images stored in arecording medium which stores image data of different aspect ratios in amixed manner, small images of a same aspect ratio only can be displayedwith a layout matching the monitor, thereby displaying a larger amountof information within a limited display space in an easily recognizablemanner.

The above and other objects, features and advantages of the inventionwill become more apparent from the following detailed description takenin conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram showing a schematic configuration of an imagerecording/reproduction apparatus embodying the present invention;

FIG. 2 is a view showing a file structure of an image data file;

FIG. 3 is a view showing a header information;

FIG. 4 is a view explaining a trimming process on a thumbnail image;

FIG. 5 is a flow chart showing operations in the imagerecording/reproduction apparatus embodying the present invention;

FIG. 6 is a view showing an index display image on a display with a 16:9aspect ratio in the image recording/reproduction apparatus embodying thepresent invention; and

FIG. 7 is a view showing an index display image on a prior imagereproduction apparatus.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the following, a preferred embodiment of the present invention willbe explained with reference to the accompanying drawings.

FIG. 1 is a view showing a schematic configuration of an imagerecording/reproduction apparatus embodying the present invention.

In FIG. 1, there are shown a memory card MC1 capable of data recordingand reproduction; and a memory card control unit B4 for controlling datawriting into and data reading from the memory card MC1.

There are also shown an image capture unit C1 for capturing an image ofan object and converting it into a camera image signal; a system controlunit B2 for controlling various units; a camera image signal processingcircuit B3 for processing the camera image signal obtained by the imagecapture unit C1; a recording/reproduction data processing circuit B1 forencoding the camera image signal, processed in the camera image signalprocessing circuit B3, into JPEG data and decoding the JPEG data readfrom the memory card MC1; a liquid crystal panel V1 for displaying acaptured image or a reproduced image; a data memory M1 for image databuffering at an image capture operation or an image reproducingoperation; and an image output terminal F1 to an unillustratedtelevision monitor.

There are further shown an image signal output switching switch SW1 forselecting the image signal output from an image signal of a 16:9 aspectratio and an image signal of a 4:3 aspect ratio; a display change-overswitch SW2 for switching an ordinary one-image display screen and anindex display screen; an image capturing switch SW3; and a recordedimage change-over switch SW4 for selecting the recording image size from1920×1080 pixels (aspect ratio 16:9) and 1280×960 pixels (aspect ratio4:3). Switching of the recorded image change-over switch SW4 allows torecord images of a 16:9 aspect ratio and a 4:3 aspect ratio on thememory card MC1.

The recording/reproduction data processing circuit B1 generates an imagesignal to be outputted to the liquid crystal panel V1 and the televisionmonitor. The image signal can be switched, by the image signal outputchange-over switch SW1, between (a) an image signal of a 16:9 aspectratio and (b) an image signal of a 4:3 aspect ratio. The image signal(b) of a 4:3 aspect ratio is selected in case of output to an ordinarytelevision monitor (with a 4:3 image size), and the image signal (a) ofa 16:9 aspect ratio is selected in case of output to a wide televisionmonitor (with a 16:9 image size).

FIG. 2 shows a file structure of the image data file. The imagerecording/reproduction apparatus of the present embodiment employs animage data file conforming with the Exif standard, adopted in manydigital cameras. The image data include a header information part 201, athumbnail image part 202 and a main image part 203.

The main image part 203 stores recorded image data as data of JPEGformat.

The thumbnail part 202 stores image data (thumbnail image data) obtainedby reducing the image data of the main image part 203 into 160×120pixels (aspect ratio 4:3).

The header part 201 stores header information including an image width,an image height, a trimming information (trimming start position, width,height) etc. of the thumbnail image (cf. FIG. 3). In an example shown inFIG. 3, the header information indicates that the main image has a 16:9aspect ratio (1920×1080 pixels). Based on the header information, therecording/reproduction data processing circuit B1 executes a trimming ofthe thumbnail image as shown in FIG. 4.

Now reference is made to FIG. 5 for explaining the operation of theimage recording/reproduction apparatus of the present embodiment. Atfirst, the image signal output change-over switch SW1 selects the aspectratio of the image signal to be outputted to the liquid crystal panel V1and the television monitor, between a 4:3 aspect ratio (in case ofoutput to an ordinary television monitor (with a 4:3 image size)) and a16:9 aspect ratio (in case of output to a wide television monitor (witha 16:9 image size)) (step S1).

At first there will be explained a case where the image signal outputchange-over switch SW1 selects an image signal output mode for a 16:9aspect ratio. When the display change-over switch SW2 changes over to anindex display mode (step S2), the operation shifts to an index displaymode whereby a counter is set at 0 (step S3).

Then a size of an image to be displayed is discriminated based on “imagewidth” and “image height” described in the header information part 201(step S4), and, in case it is not an image of a 16:9 aspect ratio, thesequence proceeds to a selection of a next image (step S9).

In case the image is identified as an image of a 16:9 aspect ratio,thumbnail image data is read from the memory card MC1 to the data memoryM1 (step S5). As explained above, the thumbnail image data has 160×120pixels (aspect ratio 4:3) and is formed in a letter-box format byattaching solid black areas above and below the image of 16:9 aspectratio. The thumbnail image data, developed in the data memory M1, aresubjected to a trimming process of trimming only the image portion ofthe thumbnail image on the basis of the header information (step S6).

Then the counter value is incremented (step S7), and is discriminatedwhether it is smaller than “12” (step S8), and, if smaller than “12”, anext image is selected (step S9).

Thus, in case of index display on a display screen with a 16:9 aspectratio, the process of the steps S4 to S9 is repeated 12 times, and thenthe thumbnail image data with a 16:9 aspect ratio, generated by therecording/reproduction data processing circuit B1, are outputted to theliquid crystal panel V1 or the external monitor to execute an indexdisplay on the monitor as shown in FIG. 6 (step S10).

Now there will be explained a case where the image signal outputchange-over switch SW1 selects an image signal output mode for a 4:3aspect ratio. When the display change-over switch SW2 changes over to anindex display mode (step S11), the operation shifts to an index displaymode whereby a counter is set at 0 (step S12).

Then a size of an image to be displayed is discriminated based on “imagewidth” and “image height” described in the header information part 201(step S13), and, in case it is not an image of a 4:3 aspect ratio, thesequence proceeds to a selection of a next image (step S17).

In case the image is identified as an image of a 4:3 aspect ratio,thumbnail image data is read from the memory card MC1 to the data memoryM1 (step S14). As explained above, the thumbnail image data has 160×120pixels (aspect ratio 4:3) and is used as it is.

Then the counter value is incremented (step S15), and is discriminatedwhether it is smaller than “6” (step S16), and, if smaller than “6”, anext image is selected (step S17).

Thus, in case of index display on a display screen with a 4:3 aspectratio, the process of the steps S13 to S17 is repeated 6 times, and thenthe thumbnail image data with a 4:3 aspect ratio is outputted to theliquid crystal panel V1 or the external monitor to execute an indexdisplay on the monitor (step S18).

In the present embodiment, the thumbnail image display of a 16:9 aspectratio displays 12 images while the thumbnail image display of a 4:3aspect ratio displays 6 images, but the number of displayed images isnot limited to such example. A number of displayed images can be changedfor example by the system control unit B2.

The object of the present invention can also be achieved by providing astorage medium storing program codes of a software realizing thefunctions of the aforementioned embodiments to a system or apparatus,reading the program codes by a computer (or a CPU or an MPU) of thesystem or the apparatus and executing the program.

In this case, the program codes themselves read from the storage mediumrealize the functions of the aforementioned embodiments, and the storagemedium storing the program codes constitutes the present invention.

Further, the storage medium for supplying the program codes can be, forexample, a flexible disk, a hard disk, an optical disk, amagneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a non-volatiletype memory card, or a ROM.

Furthermore, in addition to the case where the functions of theaforementioned embodiments are realized by the execution of the readprogram codes by the computer, the present invention naturally includesalso a case where an OS (operating system) or the like working on thecomputer performs entire processes or a part thereof in accordance withinstructions of the program codes thereby realizing the functions of theaforementioned embodiments.

Furthermore, the present invention also includes a case where, after theprogram codes read from the storage medium are written in a memoryprovided in a function expansion card which is inserted into thecomputer or in a function expansion unit which is connected to thecomputer, and a CPU or the like contained in the function expansion cardor the function expansion unit performs entire process or a part thereofin accordance with instructions of the program codes and realizesfunctions of the aforementioned embodiments.

The scope of the present invention is defined by the scope of theappended claims, and is not limited to only the specific descriptions inthis specification. Furthermore, all the modifications and changesbelonging to equivalents of the claims are considered to fall within thescope of the present invention.

This application claims priority from Japanese Patent Application No.2005-047795 filed on Feb. 23, 2005, which is hereby incorporated byreference herein.

1. An image recording/reproduction apparatus comprising: a recordingmedium, on which plural image data of different sizes are recorded withinformation of the size of each of the plural image data; a displayunit, adapted to read and display the read image data from the recordingmedium; and a discrimination unit, adapted to discriminate whether theimage data recorded on the recording medium has a predetermined sizeamong the different sizes, in accordance with the size informationrecorded on the recording medium; wherein plural small images of theimage data discriminated by the discrimination unit are simultaneouslyindex displayed on the display unit.
 2. An image recording/reproductionapparatus according to claim 1, wherein only the small images of theimage data having a same size are simultaneously index displayed.
 3. Animage recording/reproduction apparatus according to claim 2, wherein thesmall image of the image data having a first size is trimmed so as tohave the first size so that the image data of the first size and thesmall image thereof have the same first size.
 4. An imagerecording/reproduction apparatus according to claim 1, wherein the sizeis width and height of the image data.
 5. An index display method forcontrolling an image recording/reproduction apparatus including arecording medium on which plural image data of different sizes arerecoded with information of the size of each of the plural image data,comprising: a step of discriminating whether the image data recorded onthe recording medium has a predetermined size among the different sizes,in accordance with the size information recorded on the recordingmedium; and a step of simultaneously index displaying plural smallimages of the image data discriminated in the discriminating step on adisplay unit.
 6. A computer readable program recorded on a computerreadable storage medium, comprising a program code for causing acomputer to execute an index display method set out in claim 5.